Which statement best describes the life cycle of plants such as ferns?

Which assertion greatest describes the life cycle of crops resembling ferns? crops have a two-part life cycle, spending a part of their life in a diploid part and half in a haploid part. crops have a single life cycle and are completely diploid. crops have a single life cycle and are completely haploid. completely different crops have a distinct variety of phases of their life cycle.

Reply 1

The right reply is that ferns have two half of their life cycle: Diploid part and haploid part The life cycle of a fern has two elements: sporophyte stage and gametophyte stage. The gametophyte stage of ferns are haploid which releases gametes and the sporophyte stage are diploid that produces spores. This type of life cycle is called the “alternation of era”.

Reply 2

Crops have a two-part life cycle, spending a part of their life in a
diploid part and half in a multicellular haploid part. People spend
their lives in a diploid part and produce gamete

Reply 3

A Rationalization:

Reply 4

An Error throughout S part is corrected in the course of the G2 Part Step-by-step rationalization:

Reply 5

an error in the course of the S part is corrected in the course of the G2 part

Reply 6

An error in the course of the S part is corrected in the course of the G2 part. Rationalization: Why the S Part Is Necessary DNA synthesis should happen quickly, because the unpaired base pairs of the DNA strand throughout replication are susceptible to dangerous mutagens, which might result in genetic abnormalities, cell illness and even cell demise

Reply 7

An error in the course of the S part is corrected in the course of the hole part two.

Reply 8

as there is not any assertion one of the simplest ways is mutation(DNA mutation)

Reply 9

The reply is: B) An error in the course of the S part is corrected in the course of the G2 part Hope it helps!

Reply 10

The best reply is A) An error in the course of the G1 part is corrected in the course of the G2 part. Throughout Replication (S part), the encounter of a injury on the continual strand causes a cease of the replication fork and a decoupling between steady and discontinuous strand. The injury can both be overridden after it, to be repaired after replication, or the replication is prolonged by translesional polymerases or by a pathway with out errors. Discontinuous strand injury could also be ignored by replication after which repaired in part G2 by the error-free path, resembling injury to the continual strand after rebooting.

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